public object ReadData(AMFReader reader)
{
int handle = reader.ReadAMF3IntegerData();
bool inline = ((handle & 1) != 0 ); handle = handle >> 1;
if (!inline)
{
//An object reference
return reader.ReadAMF3ObjectReference(handle);
}
else
{
ClassDefinition classDefinition = reader.ReadClassDefinition(handle);
object instance = null;
IReflectionOptimizer reflectionOptimizer = _optimizedReaders[classDefinition.ClassName] as IReflectionOptimizer;
if (reflectionOptimizer == null)
{
lock (_optimizedReaders)
{
if (classDefinition.IsTypedObject)
{
if (!_optimizedReaders.Contains(classDefinition.ClassName))
{
//Temporary reader
_optimizedReaders[classDefinition.ClassName] = new AMF3TempObjectReader();
Type type = ObjectFactory.Locate(classDefinition.ClassName);
if (type != null)
{
instance = ObjectFactory.CreateInstance(type);
if (classDefinition.IsExternalizable)
{
reflectionOptimizer = new AMF3ExternalizableReader();
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
else
{
reader.AddAMF3ObjectReference(instance);
IBytecodeProvider bytecodeProvider = null;
#if NET_1_1
//codedom only
if( FluorineConfiguration.Instance.OptimizerSettings != null )
bytecodeProvider = new FluorineFx.IO.Bytecode.CodeDom.BytecodeProvider();
#else
if (FluorineConfiguration.Instance.OptimizerSettings.Provider == "codedom")
bytecodeProvider = new dotFlex.IO.Bytecode.CodeDom.BytecodeProvider();
if (FluorineConfiguration.Instance.OptimizerSettings.Provider == "il")
bytecodeProvider = new dotFlex.IO.Bytecode.Lightweight.BytecodeProvider();
#endif
reflectionOptimizer = bytecodeProvider.GetReflectionOptimizer(type, classDefinition, reader, instance);
//Fixup
if (reflectionOptimizer != null)
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
else
_optimizedReaders[classDefinition.ClassName] = new AMF3TempObjectReader();
}
}
else
{
reflectionOptimizer = new AMF3TypedASObjectReader(classDefinition.ClassName);
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
}
else
{
reflectionOptimizer = _optimizedReaders[classDefinition.ClassName] as IReflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
}
else
{
reflectionOptimizer = new AMF3TypedASObjectReader(classDefinition.ClassName);
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
}
}
else
{
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
return instance;
}
}
public object ReadData(AMFReader reader)
{
int handle = reader.ReadAMF3IntegerData();
bool inline = ((handle & 1) != 0); handle = handle >> 1;
if (!inline)
{
//An object reference
return(reader.ReadAMF3ObjectReference(handle));
}
else
{
ClassDefinition classDefinition = reader.ReadClassDefinition(handle);
object instance = null;
IReflectionOptimizer reflectionOptimizer = _optimizedReaders[classDefinition.ClassName] as IReflectionOptimizer;
if (reflectionOptimizer == null)
{
lock (_optimizedReaders)
{
if (classDefinition.IsTypedObject)
{
if (!_optimizedReaders.Contains(classDefinition.ClassName))
{
//Temporary reader
_optimizedReaders[classDefinition.ClassName] = new AMF3TempObjectReader();
Type type = ObjectFactory.Locate(classDefinition.ClassName);
if (type != null)
{
instance = ObjectFactory.CreateInstance(type);
if (classDefinition.IsExternalizable)
{
reflectionOptimizer = new AMF3ExternalizableReader();
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
else
{
reader.AddAMF3ObjectReference(instance);
IBytecodeProvider bytecodeProvider = null;
#if NET_1_1
//codedom only
if (FluorineConfiguration.Instance.OptimizerSettings != null)
{
bytecodeProvider = new FluorineFx.IO.Bytecode.CodeDom.BytecodeProvider();
}
#else
if (FluorineConfiguration.Instance.OptimizerSettings.Provider == "codedom")
{
bytecodeProvider = new dotFlex.IO.Bytecode.CodeDom.BytecodeProvider();
}
if (FluorineConfiguration.Instance.OptimizerSettings.Provider == "il")
{
bytecodeProvider = new dotFlex.IO.Bytecode.Lightweight.BytecodeProvider();
}
#endif
reflectionOptimizer = bytecodeProvider.GetReflectionOptimizer(type, classDefinition, reader, instance);
//Fixup
if (reflectionOptimizer != null)
{
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
}
else
{
_optimizedReaders[classDefinition.ClassName] = new AMF3TempObjectReader();
}
}
}
else
{
reflectionOptimizer = new AMF3TypedASObjectReader(classDefinition.ClassName);
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
}
else
{
reflectionOptimizer = _optimizedReaders[classDefinition.ClassName] as IReflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
}
else
{
reflectionOptimizer = new AMF3TypedASObjectReader(classDefinition.ClassName);
_optimizedReaders[classDefinition.ClassName] = reflectionOptimizer;
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
}
}
else
{
instance = reflectionOptimizer.ReadData(reader, classDefinition);
}
return(instance);
}
}